The concentration of A in a first order reaction, A → B, decreases

Chemical Reaction Engineering
The concentration of A in a first order reaction, A → B, decreases

Very abruptly towards the end of the reaction

Logarithmically with time

Exponentially with time

Linearly with time

Very abruptly towards the end of the reaction

Logarithmically with time

Exponentially with time

Linearly with time

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Chemical Reaction Engineering
The reaction A → B is conducted in an adiabatic plug flow reactor (PFR). Pure A at a concentration of 2 kmol/m³ is fed to the reactor at the rate of 0.01 m³ /s and at a temperature of 500 K. If the exit conversion is 20%, then the exit temperature (in k)is (Data: Heat of reaction at 298 K = - 50000 kJ/ kmole of A reacted Heat capacities CPA = CPB = 100kJ/kmole. K (may be assumed to be independent of temperature))

500

600

1000

400

500

600

1000

400

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Chemical Reaction Engineering
For every 10°C rise in temperature, the rate of chemical reaction doubles. When the temperature is increased from 30 to 70°C, the rate of reaction increases __________ times.

32

12

8

16

32

12

8

16

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Chemical Reaction Engineering
For a packed bed reactor; the presence of a long tail in the residence time distribution curve is an indication of

Chanelling

Bypass

Ideal plug flow

Dead zone

Chanelling

Bypass

Ideal plug flow

Dead zone

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Chemical Reaction Engineering
At a given value of E/R (ratio of activation energy and gas constant), the ratio of the rate constants at 500°K and 400°K is 2, if Arrhenious law is used. What will be this ratio, if transition state theory is used with the same value of E/R?

1.6

2.5

2

2.24

1.6

2.5

2

2.24

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Chemical Reaction Engineering
Enzymes are destroyed, when the

Temperature is very high

Reactant's concentration is very high

Reactant's concentration is very low

Reaction rate is independent of the reactant's concentration

Temperature is very high

Reactant's concentration is very high

Reactant's concentration is very low

Reaction rate is independent of the reactant's concentration

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Chemical Reaction Engineering

Chemical Reaction Engineering The concentration of A in a first order reaction, A → B, decreases

Chemical Reaction Engineering For every 10°C rise in temperature, the rate of chemical reaction doubles. When the temperature is increased from 30 to 70°C, the rate of reaction increases __________ times.

Chemical Reaction Engineering For a packed bed reactor; the presence of a long tail in the residence time distribution curve is an indication of

Chemical Reaction Engineering At a given value of E/R (ratio of activation energy and gas constant), the ratio of the rate constants at 500°K and 400°K is 2, if Arrhenious law is used. What will be this ratio, if transition state theory is used with the same value of E/R?

Chemical Reaction Engineering Enzymes are destroyed, when the

Chemical Reaction Engineering
The concentration of A in a first order reaction, A → B, decreases

Chemical Reaction Engineering
For every 10°C rise in temperature, the rate of chemical reaction doubles. When the temperature is increased from 30 to 70°C, the rate of reaction increases __________ times.

Chemical Reaction Engineering
For a packed bed reactor; the presence of a long tail in the residence time distribution curve is an indication of

Chemical Reaction Engineering
At a given value of E/R (ratio of activation energy and gas constant), the ratio of the rate constants at 500°K and 400°K is 2, if Arrhenious law is used. What will be this ratio, if transition state theory is used with the same value of E/R?

Chemical Reaction Engineering
Enzymes are destroyed, when the